VERIS VERABAR VELOCITY AVERAGING FLOW SENSORS TRUE PERFORMANCE IN FLOW MEASUREMENT
The Most Accurate and Reliable Technology for Measuring Gas, Liquid and Steam Developed from aerospace technology, the Verabar averaging pitot flow sensor provides unsurpassed accuracy and reliability. With its solid one-piece construction and bullet shape, the Verabar makes flow measurement clog-free and precise. The unique sensor shape reduces drag and flow induced vibration. And the location of the low pressure ports eliminates the potential for clogging and improves signal stability. Superior Signal Stability and Greater Resistance to Clogging Clogging can occur in low pressure ports located in or near the partial vacuum at the rear of the sensor. The Verabar design locates the low pressure ports on the sides of the sensor, forward of the fluid separation point and turbulent wake area. This virtually eliminates clogging and produces an extremely stable signal....advanced DP Measurement Accuracy You Can Trust And the Data to Back It Up The unique and exclusive break-through in improved accuracy derived from the development of a verified theoretical model predicts the Verabar flow coefficients. This eliminates the need for calibration tests to characterize the flow coefficients. Without such a model, the uncertainty of the flow coefficients is dramatically increased and expensive calibration may be required. Empirical test data from independent laboratories verified the theoretical model and flow coefficients as a constant, independent of Reynolds number and within ±0.5% of the predicted value. The derivation of the theoretical model and test data is published in the Verabar Test Report (ED-100). Percent Deviation from the Published K 3% 2% 1% 0% -1% -2% Air Tests Water Tests 0.5 Percent Error Band Test Data Summary 1/2/ Percent -3% 0% 5% 10% 15% 20% 25% Percent Blockage Lower Drag and Extended Turndown Golf balls fly farther because they have a dimpled surface that lowers aerodynamic drag. The grooves and roughness on the Verabar s frontal surface apply the same principle. This simple design feature relieves the partial vacuum at the rear of the sensor, reducing the pressure drag. This extends the accuracy and rangeability to very low velocities. Rough Surface Smooth Surface 2 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information.
...New Ideas That Work Unique Valve Head Verabar offers a new concept built-in valves in the head of the instrument. This superior design: Simplifies installation and maintenance. Lowers the connecting hardware cost by reducing the number of fittings. Spring-Lock Offers a Superior Mounting Method This advanced, patented design ensures the sensor remains sealed, locked and pre-loaded to the opposite wall regardless of changes in pipe diameter due to pressure, temperature or mechanical force. This design has important advantages: Fugitive emission and leak prevention The Spring- Lock continually compensates for the differential in packing and body growth rates due to increased temperature. Transmount A Transmount flow system is the first choice for all liquids; and for gas and steam applications, with slight variations in pressure and temperature. Mass Transmount A Mass Transmount flow system should be selected on steam and gas applications with variable temperature and pressure. Partial Insert Designed specifically for high velocity cooling water applications, large diameter pipes, large vertical stacks and buried water lines. Extends 1/3 into pipe to reduce procurement and installation costs specifically useful when a hot tap is required. Partial Insert hot tap sensors can be inserted/ retracted with no reduction in flow rate. Spring-Lock Visual load indicator Compensates for changes in pipe diameter Spring travel Increases sensor strength, thereby eliminating the need for an opposite wall support. A locked, pre-loaded sensor is four times stronger than a non-preloaded, cantilevered sensor. Other mounting methods do not pre-load the sensor or the packing seal and are subject to increased sensor vibration, metal fatigue, breakage and leakage. Field Systems Ready to install, the Verabar can be ordered with a manifold, transmitter or local indicating meter. Complete Installation in Less than an Hour Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information. 3
...The Versatile Sensor Fast and Easy Model Selection The easy-to-operate Veracalc computer program features: Calculations: DP from flow rate, or flow rate from DP. Model Selection: Complete model selection from drop down menus. Structural Analysis: Verifies sensor strength at flowing conditions. Temperature and Pressure Limits: Error warnings if limits are exceeded. Please contact the factory for the Veracalc PC program. Regular Models (Threaded Components) V100 Verabar Model Selector Model Number V110 V150 Type of Mounting Tube Fitting V100 (Single Support) V110 (Double Support) Spring-Lock V150 (No opposite support required) Hot Tap Models (Threaded or Flanged Components) V200 Model Number V400 Type of Mounting Threaded Screw Drive V200 Flanged Screw Drive V400 Verabar Applications The Verabar offers the widest application range of any flow sensor. It accurately measures gas, liquid and steam. Gas Liquid Steam Natural Gas Compressed Air Combustion Air Hydrocarbon Gas Hot Air Blast Furnace Gas Cooling/Chilled water Boiler Feed Water De-Mineralized Water Hydrocarbon Liquids Cryogenic Thermal Transfer Fluids Extended Range Applications The Verabar s versatile design lends itself to a wide range of applications. Contact VERIS application engineering for your special requirements. High Pressure Design 2500# ANSI Class 6000PSI and 1000ºF Saturated Superheated Main Header Custody Transfer Distribution Energy Studies Flanged Models (Flanged Components) Model Number V500 V510 V550 Type of Mounting Flanged V500 (Single Support) V510 (Double Support) Flanged Spring-Lock V550 (No opposite support required) Square and Rectangular Ducts Large Stacks and Ducts Up to 21 feet (6 meters) Specialized Mounting PVC Concrete FRP Cast Iron Pipe 4 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information.
...Compared to Orifice Plates Through Accuracy of Measurement, Low Installed and Operating Costs, Verabar Proves its Performance, Efficiency and Value. Verabar Maintains Its Accuracy Orifice plates show long term deterioration of accuracy. The initial accuracy of the orifice plate is ±1%. However, long term accuracy deteriorates unless the plate is periodically inspected. Senior, dual chamber fittings are available to check the plate without requiring system shutdown, but such fittings are very expensive. Orifice Plate Test Results Florida Gas Transmission Company conducted a test to quantify various conditions which can result in inaccurate measurement. A partial list of the results is shown: Valve lubr. (-24%) Warpage (-9,6%) Wear (-13.1%) Dirt & grease (-11.1%) Leaks (-8.2%) Condition % Deviation Wear of knife edge: 0.010...-2.2 0.020...-4.5 0.050... -13.1 Dirt and grease deposits in pipe... -11.1 Valve lubrication upstream: one side of plate...-15.8 both sides...-24.0 Leaks around plate...-8.2 Plate warpage...-9.6 Verabar Lowers Installed Costs Verabar can save you more than 60% in installation costs over an orifice plate in a 10 pipe. The graph shows the total installed cost by pipe size of the orifice plate, the Verabar, and the resultant Verabar savings. The most significant portion of the savings is the reduction in the linear inches of weld. Savings in Weld Time Only 4 inches of linear welding 63 inches of linear welding Installed Cost Savings Dollar Savings $100,000 $50,000 $10,000 $ 5,000 $1,000 $ 500 Orifice Installed Cost Verabar Installed Cost Savings Verabar Installed Cost 10 20 30 40 48 Pipe Size (Inches) Verabar Has the Lowest Operating Costs Verabar pays for itself in less than a year. The graph shows the yearly operating cost savings and equivalent horsepower savings of the non-constricting, low permanent pressure loss Verabar compared to the extremely constricting, high permanent pressure loss orifice plate. Savings are shown for gases, liquids and steam at typical design velocities, by pipe size. $ Verabar vs. Orifice $ $ $ $ $ $ $ Operating Cost Savings Dollar Savings $100,000 $50,000 $10,000 $ 5,000 $1,000 $ 500 Air Liquids Horsepower Savings @ $0.05/KWH 300 200 Steam 100 50 Natural Gas 10 20 30 40 48 Pipe Size (Inches) 10 5 1 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information. 5
...ISO 9001 Certified Quality Assurance VERIS manufactures its own leak-proof, solid onepiece sensor. Our primary goal is to provide the highest quality and most accurate sensor in the industry. Other manufacturers use a three-piece sensor design that has no positive mechanical method of maintaining a seal between the tubes. Therefore, temperature, pressure, vibration and even manufacturing variations can cause leakage between the chambers. This can result in a significant undetectable loss in accuracy. Verabar is designed to meet or exceed applicable ANSI and ASME codes. The Verabar is available to meet B31.1, B31.3, B31.8, NACE MR-01-75, etc. Additional QA capabilities include code welding, hydrostatic and other non-destructive testing. Verabar Sensor Round Sensor T-Shaped Sensor The Proof of Verabar Accuracy Accurate Coefficients The true test of a flow measurement device is its ability to repeat its published flow coefficient within its accuracy band. Verabar has been thoroughly tested at independent flow laboratories (all sensor sizes, in multiple pipe sizes, in gas and liquids). Actual Test Why Average the Velocity Profile? Verabar Verabar averages the velocity profile through multi-sensing ports which span the entire pipe diameter. Other types of non-averaging insert meters are SINGLE POINT INSERT METERS (turbine, vortex, magnetic, sonic, etc.). They assume a textbook: turbulent velocity profile, and use a single critical point to infer an average velocity. In actual industrial applications, sensors are located downstream of disturbances, such as elbows or valves, which produce non-uniform velocity profiles. This makes it virtually impossible to locate a single point that represents the average velocity. Textbook Profile Elbow Actual Profiles Control Valve Low Reynolds Number Other Result: Inaccuracy ranging from ±10% to ±20%. Location of average velocity 6 Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information.
...Problems With Other Sensor Shapes Round Sensors Round sensors produce unpredictable accuracy. The original round sensors were designed for economical fluid balancing and did not meet industrial demands for accuracy. Round sensors have a variable fluid separation point that causes an unstable low pressure distribution around the sensor. Result: Inaccuracy in excess of ±5% and as high as ±10%. Variable separation point Diamond and T-Shaped Sensors These sensors produce pulsating, noisy signals. They improved accuracy by use of a sharp edge to fix the fluid s separation point. However, this greatly amplified the vortex shedding forces. Result: The sharp edges generate extreme vortices, causing sensor vibration, pulsations and a noisy signal to the point that transmitter dampening and signal averaging are recommended. Fixed separation point Aerodynamic-Shaped Sensors Extreme aerodynamic shapes that permit the stream lines to reattach are subject to airfoil type lift forces. This occurs when the angle of attack varies due to sensor misalignment, or the direction of the fluid varies, as is common in industrial piping with upstream disturbances. Result: The lift forces can cause an unpredictable shift in the low pressure distribution, producing inaccurate measurement. Lift forces Verabar...True Performance in Measurement Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information. 7
INTELLIGENT SOLUTIONS IN STEAM, AIR AND HOT WATER Armstrong International North America Latin America India Europe / Middle East / Africa China Pacific Rim Designs, materials, weights and performance ratings are approximate and subject to change without notice. Visit /veris for up-to-date information. 2016 Armstrong International, Inc. 470-EN Printed in USA - 11/16